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/** 
 * @file waterF.glsl
 *
 * $LicenseInfo:firstyear=2007&license=viewerlgpl$
 * Second Life Viewer Source Code
 * Copyright (C) 2007, Linden Research, Inc.
 * 
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation;
 * version 2.1 of the License only.
 * 
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 * 
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 * 
 * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
 * $/LicenseInfo$
 */
 
#extension GL_ARB_texture_rectangle : enable

#ifdef DEFINE_GL_FRAGCOLOR
out vec4 frag_data[3];
#else
#define frag_data gl_FragData
#endif

vec3 scaleSoftClip(vec3 inColor);
vec3 atmosTransport(vec3 inColor);

uniform sampler2D bumpMap;   
uniform sampler2D screenTex;
uniform sampler2D refTex;
uniform sampler2DRectShadow shadowMap0;
uniform sampler2DRectShadow shadowMap1;
uniform sampler2DRectShadow shadowMap2;
uniform sampler2DRectShadow shadowMap3;
uniform sampler2D noiseMap;

uniform mat4 shadow_matrix[6];
uniform vec4 shadow_clip;

uniform float sunAngle;
uniform float sunAngle2;
uniform vec3 lightDir;
uniform vec3 specular;
uniform float lightExp;
uniform float refScale;
uniform float kd;
uniform vec2 screenRes;
uniform vec3 normScale;
uniform float fresnelScale;
uniform float fresnelOffset;
uniform float blurMultiplier;
uniform vec2 screen_res;
uniform mat4 norm_mat; //region space to screen space

//bigWave is (refCoord.w, view.w);
VARYING vec4 refCoord;
VARYING vec4 littleWave;
VARYING vec4 view;
VARYING vec4 vary_position;

vec3 srgb_to_linear(vec3 cs)
{
	vec3 low_range = cs / vec3(12.92);
	vec3 high_range = pow((cs+vec3(0.055))/vec3(1.055), vec3(2.4));
	bvec3 lte = lessThanEqual(cs,vec3(0.04045));

#ifdef OLD_SELECT
	vec3 result;
	result.r = lte.r ? low_range.r : high_range.r;
	result.g = lte.g ? low_range.g : high_range.g;
	result.b = lte.b ? low_range.b : high_range.b;
    return result;
#else
	return mix(high_range, low_range, lte);
#endif

}

vec3 linear_to_srgb(vec3 cl)
{
	cl = clamp(cl, vec3(0), vec3(1));
	vec3 low_range  = cl * 12.92;
	vec3 high_range = 1.055 * pow(cl, vec3(0.41666)) - 0.055;
	bvec3 lt = lessThan(cl,vec3(0.0031308));

#ifdef OLD_SELECT
	vec3 result;
	result.r = lt.r ? low_range.r : high_range.r;
	result.g = lt.g ? low_range.g : high_range.g;
	result.b = lt.b ? low_range.b : high_range.b;
    return result;
#else
	return mix(high_range, low_range, lt);
#endif

}

vec2 encode_normal(vec3 n)
{
	float f = sqrt(8 * n.z + 8);
	return n.xy / f + 0.5;
}

void main() 
{
	vec4 color;
	float dist = length(view.xy);
	
	//normalize view vector
	vec3 viewVec = normalize(view.xyz);
	
	//get wave normals
	vec3 wave1 = texture2D(bumpMap, vec2(refCoord.w, view.w)).xyz*2.0-1.0;
	vec3 wave2 = texture2D(bumpMap, littleWave.xy).xyz*2.0-1.0;
	vec3 wave3 = texture2D(bumpMap, littleWave.zw).xyz*2.0-1.0;
	//get base fresnel components	
	
	vec3 df = vec3(
					dot(viewVec, wave1),
					dot(viewVec, (wave2 + wave3) * 0.5),
					dot(viewVec, wave3)
				 ) * fresnelScale + fresnelOffset;
	df *= df;
		    
	vec2 distort = (refCoord.xy/refCoord.z) * 0.5 + 0.5;
	
	float dist2 = dist;
	dist = max(dist, 5.0);
	
	float dmod = sqrt(dist);
	
	vec2 dmod_scale = vec2(dmod*dmod, dmod);
	
	//get reflected color
	vec2 refdistort1 = wave1.xy*normScale.x;
	vec2 refvec1 = distort+refdistort1/dmod_scale;
	vec4 refcol1 = texture2D(refTex, refvec1);
	
	vec2 refdistort2 = wave2.xy*normScale.y;
	vec2 refvec2 = distort+refdistort2/dmod_scale;
	vec4 refcol2 = texture2D(refTex, refvec2);
	
	vec2 refdistort3 = wave3.xy*normScale.z;
	vec2 refvec3 = distort+refdistort3/dmod_scale;
	vec4 refcol3 = texture2D(refTex, refvec3);

	vec4 refcol = refcol1 + refcol2 + refcol3;
	float df1 = df.x + df.y + df.z;
	refcol *= df1 * 0.333;
	
	vec3 wavef = (wave1 + wave2 * 0.4 + wave3 * 0.6) * 0.5;
	wavef.z *= max(-viewVec.z, 0.1);
	wavef = normalize(wavef);
	
	float df2 = dot(viewVec, wavef) * fresnelScale+fresnelOffset;
	
	vec2 refdistort4 = wavef.xy*0.125;
	refdistort4.y -= abs(refdistort4.y);
	vec2 refvec4 = distort+refdistort4/dmod;
	float dweight = min(dist2*blurMultiplier, 1.0);
	vec4 baseCol = texture2D(refTex, refvec4);

	refcol = mix(baseCol*df2, refcol, dweight);

	//get specular component
	float spec = clamp(dot(lightDir, (reflect(viewVec,wavef))),0.0,1.0);
		
	//harden specular
	spec = pow(spec, 128.0);

	//figure out distortion vector (ripply)   
	vec2 distort2 = distort+wavef.xy*refScale/max(dmod*df1, 1.0);
		
	vec4 fb = texture2D(screenTex, distort2);
	
	//mix with reflection
	// Note we actually want to use just df1, but multiplying by 0.999999 gets around an nvidia compiler bug
	color.rgb = mix(fb.rgb, refcol.rgb, df1 * 0.99999);
	
	vec4 pos = vary_position;
		
	color.rgb += spec * specular;

	color.rgb = atmosTransport(color.rgb);
	color.rgb = scaleSoftClip(color.rgb);
	color.a   = spec * sunAngle2;

	vec3 screenspacewavef = normalize((norm_mat*vec4(wavef, 1.0)).xyz);
	
	frag_data[0] = vec4(color.rgb, color); // diffuse
	frag_data[1] = vec4(0);		// speccolor, spec
	frag_data[2] = vec4(encode_normal(screenspacewavef.xyz*0.5+0.5), 0.05, 0);// normalxy, 0, 0
}